CN103452830B

CN103452830B - Motor-driven compressor

Info

Publication number: CN103452830B
Application number: CN201310203828.2A
Authority: CN
Inventors: 深作博史
Original assignee: Toyoda Automatic Loom Works Ltd
Current assignee: Toyota Industries Corp
Priority date: 2012-05-30
Filing date: 2013-05-28
Publication date: 2016-08-17
Anticipated expiration: 2033-05-28
Also published as: DE102013209666B4; DE102013209666A1; CN103452830A; US9343940B2; KR20130135084A; JP2013249740A; KR101463133B1; JP5915384B2; US20130320792A1

Abstract

Thering is provided a kind of motor-driven compressor, it includes the housing being made up of metal material, compression section, electro-motor, the nappe being made up of metal material, the motor drive circuit being contained in the accommodation space limited by housing and nappe, flexible sealing component between housing and nappe and the extension being arranged at least one in housing and nappe.Compression section and electro-motor are accommodating in the housing.Nappe is attached to housing.Motor drive circuit drives electro-motor.Extension upwardly extends in the side of the one opposed with nappe towards housing, and is arranged in the inner side of containment member.Extension includes outer peripheral face.The outer peripheral face that containment member is arranged to extension is closely contacted.

Description

Motor-driven compressor

Technical field

The present invention relates to a kind of motor-driven compressor.

Background technology

Motor-driven compressor includes the housing being made up of metal material, and housing is equipped with the pressure being compressed cold-producing medium Contracting part and the electro-motor of this compression section of driving.Housing is attached to nappe.Nappe defines accommodation space, accommodating sky The motor drive circuit for driving electro-motor it is equipped with between.Containment member it is provided with between housing and nappe.Seal Component prevents refuse or water from entering accommodation space via the junction between housing and nappe.

Sufficiently sealed in order to obtain between housing and nappe, it is necessary to the shape of containment member to be remained with accommodating The periphery edge in space is consistent.It is therefoie, for example, disclosed in Japanese Laid-Open Patent Publication No.2007-224902, gold Belong to core and be configured to consistent with the periphery edge of accommodation space, and containment member is arranged between housing and nappe, should Containment member is by by being integrally formed obtained hermetic unit structure by elastic rubber material with metal-cored.Accordingly, sealing The shape divided is kept into consistent with the periphery edge of accommodation space.Therefore, by hermetic unit between housing and nappe Obtain sufficiently sealing.

But, in Japanese Laid-Open Patent Publication No.2007-224902, hermetic unit by make metal-cored be configured to The periphery edge of accommodation space is consistent and metal-cored being integrally formed with elastomeric material is formed afterwards.Which increase system Therefore and not preferred cause this, and.Additionally, be likely to enter motor via hermetic unit from outside noise to drive electricity Road, thus flow via motor drive circuit, and be likely to leak via hermetic unit from the noise of motor drive circuit To outside.

Summary of the invention

It is an object of the invention to provide a kind of motor-driven compressor, wherein, obtain between housing and nappe and fill Divide and seal, and reduce the noise leakage via containment member, reduce the manufacturing cost of motor-driven compressor simultaneously.

In order to realize object above and according to an aspect of the present invention, motor-driven compressor includes: by metal material The housing that material is made；House compression section in the housing and electro-motor；The nappe being made up of metal material, nappe is attached Link housing；Motor drive circuit, it is contained in the accommodation space limited by housing and nappe；It is positioned at housing and nappe Between flexible sealing component；And extension, extension be arranged at least one in housing and nappe and Upwardly extending towards the side of housing with the another one in nappe.Motor drive circuit drives electro-motor.Extension is distributed Put in the inner side of containment member and include outer peripheral face.The outer peripheral face that containment member is arranged to extension is closely contacted.

According to a further aspect in the invention, motor-driven compressor includes: the housing being made up of metal material；It is contained in shell Compression section in body and electro-motor；Nappe, nappe is attached to housing and by plastic and interception electromagnetic noise Metal part structure；Motor drive circuit, it is contained in the accommodation space limited by housing and nappe；Be positioned at housing with Flexible sealing component between nappe；And extension, extension is arranged on housing and at least in metal part In person and upwardly extending towards the side of housing with the another one in metal part.Motor drive circuit drives electro-motor. Extension is arranged in the inner side of containment member, and includes outer peripheral face.Containment member is arranged to the outer peripheral face with extension It is closely contacted.

By combining accompanying drawing, being illustrated by way of example the following description of the principle of the invention, the other side of the present invention and excellent Point will be apparent from.

Accompanying drawing explanation

By referring to following description and the accompanying drawing of present preferred embodiment, the present invention and basis can be best understood The purpose of invention and advantage, in accompanying drawing:

Figure 1A shows the biopsy cavity marker devices sectional view of the motor-driven compressor according to the first embodiment；

Figure 1B shows nappe and the enlarged partial sectional view about of the motor-driven compressor of Figure 1A；

Fig. 2 is the sectional view taken along the line 2-2 of Figure 1B；

Fig. 3 shows the enlarged partial sectional view around the nappe according to the second embodiment；

Fig. 4 be according to the nappe of another embodiment around enlarged partial sectional view；

Fig. 5 is the enlarged partial sectional view around the nappe according to another embodiment；

Fig. 6 be according to the nappe of a further embodiment around enlarged partial sectional view.

Detailed description of the invention

First embodiment

Hereinafter with reference to Figure 1A, Figure 1B and Fig. 2, the motor-driven compressor according to the first embodiment is described.

As shown in Figure 1A, motor-driven compressor 10 has housing H.Housing H includes made of aluminum (by metal material system Become) discharge housing member 11 and (being made up of metal material) made of aluminum, be attached to discharge housing member 11 suction casing Body component 12.Discharge the cylinder that housing member 11 is configured to have Guan Bi top.Suction casing component 12 is configured to have Guan Bi The cylinder of bottom.Suction inlet (not shown) it is formed with in the perisporium of suction casing component 12, and outside this suction inlet is connected to Portion's refrigerating circuit (not shown).In discharging housing member 11, it is formed with outlet 14, and this outlet 14 is connected to outside Refrigerating circuit.Suction casing component 12 houses the compression section 15 for compressing cold-producing medium and for driving the electricity of compression section 15 Dynamic motor 16.Although not particularly shown in present embodiment, what compression section 15 included being fixed to suction casing component 12 determines whirlpool Rotating part (fixed scroll) and being arranged to towards the dynamic scroll (orbiting scroll) determining scroll.

Stator 17 is fixed to the inner circumferential surface of suction casing component 12.Stator 17 includes stator core 17a and coil 17b, Stator core 17a is fixed to the inner circumferential surface of suction casing component 12, and coil 17b (does not shows around each tooth of stator core 17a Go out) winding.When rotary shaft 19 is inserted through stator 17, by this rotary shaft 19 in suction casing component 12 rotatably Supporting.Rotary shaft 19 is fastened to rotor 18.

As shown in Figure 1B, in the diapire 12a of suction casing component 12, it is formed with annular ennation 12f.This ennation 12f At the overall circumference circumference of diapire 12a, upper outwards in the direction (axial direction) that axial centre L of rotary shaft 19 extends ( Figure 1B observes to the right) extend.The opening of ennation 12f is attached to the cylindrical shape nappe 41 with Guan Bi end, this circle Tubular nappe 41 (being made of metal) made of aluminum.Additionally, defined appearance by diapire 12a, ennation 12f and nappe 41 It is empty a 41a.Accommodation space 41a houses the motor drive circuit 40 driving electro-motor 16.Motor drive circuit 40 is accommodating Space 41a is attached to diapire 12a.Therefore, in the present embodiment, compression section 15, electro-motor 16 and motor drive Circuit 40 is sequentially arranged on the axial direction of rotary shaft 19.

Nappe 41 is formed by shaping drum part 42, cover 43 and circular connector part 44.Cylindrical portions 42 The axial direction of rotary shaft 19 extends.Cover 43 and cylindrical portions 42 are continuous print, and are prolonging with cylindrical portions 42 Vertical side, the direction stretched upwardly extends.Connector part 44 and cover 43 are continuous print, and axial in rotary shaft 19 Side upwardly extends.In the inner side of connector part 44, the holding part 45 being made up of plastic material and connector part 44 one Ground is formed.It is electrically connected to the metal terminal 46 of external power source (not shown) by keeping part 45 to keep.Metal terminal 46 electricity It is connected to motor drive circuit 40.

It is provided with between the opening and the opening of cylindrical portions 42 of ennation 12f and to be made up of elastic rubber material Containment member 51.Containment member 51 is annular.Additionally, be provided with in being positioned at the inner peripheral surface of adjacent open end of cylindrical portions 42 Toroidal extension 47, this toroidal extension 47 from cylindrical portions 42 towards diapire 12a(suction casing component 12) extend.Prolong Extending portion divides 47 form with cylindrical portions 42 and extend linearly on the axial direction of rotary shaft 19.Extension 47 End 47a further highlights towards diapire 12a than the end surface 511 towards ennation 12f of containment member 51.The most just Being to say, extension 47 at least covers the position of the overall inner peripheral surface 51a of containment member 51 and extends towards extension 47.

As in figure 2 it is shown, extension 47 is formed so that extension 47 contacts the overall inner peripheral surface of containment member 51 51a.The inner peripheral surface 51a of the outer peripheral face 47b contact containment member 51 of extension 47.Containment member 51 is by bullet radially outwardly Property deformation and be arranged on the periphery of extension 47.The inner peripheral surface of the outer peripheral face 47b contact containment member 51 of extension 47 51a so that containment member 51 is arranged to the outer peripheral face 47b with extension 47 and is closely contacted and is along extension 47 Outer peripheral face 47b.Therefore, containment member 51 is kept into the outer peripheral face 47b(accommodation space 41a being configured to extension 47 Periphery edge) consistent.It is to say, the inner peripheral surface 51a of the outer peripheral face 47b of extension 47 and containment member 51 is arranged to Contact closely to each other, thus at least make containment member 51 be kept into be configured to consistent with the outer peripheral face 47b of extension 47. Before elastic deformation, the internal diameter of containment member 51 is less than the external diameter of extension 47.

It is described below the operation of present embodiment.

Containment member 51 is arranged to the outer peripheral face 47b with extension 47 and is closely contacted and is along extension 47 External peripheral surface 47b so that containment member 51 be kept into be configured to the outer peripheral face 47b of extension 47 consistent.Cause This, by containment member 51, obtain sufficiently sealed between the opening and the opening of cylindrical portions 42 of ennation 12f. This prevent refuse or water and enter accommodation space 41a via the junction between opening and the cylindrical portions 42 of ennation 12f. Additionally, extension 47 is arranged in the inner side of containment member 51 so that the end 47a of extension 47 is than the face of containment member 51 Further prominent towards diapire 12a to the end surface 511 of ennation 12f.Therefore, by extension 47 intercepted from The outside noise (electromagnetic noise) via containment member 51, and also intercepted from motor drive circuit 40 by extension 47 Noise towards containment member 51.Therefore, the noise leakage via containment member 51 is reduced.

Above-mentioned embodiment has the following advantages.

(1) being provided with toroidal extension 47 in the inner peripheral surface of the adjacent open end of cylindrical portions 42, this annular extends Part 47 and is arranged in inside containment member 51 towards diapire 12a extension from cylindrical portions 42.Additionally, containment member 51 is arranged The outer peripheral face 47b of one-tenth and extension 47 is closely contacted and is the outer peripheral face 47b along extension 47.Therefore, close Envelope component 51 be kept into be configured to consistent with the outer peripheral face 47b of extension 47 so that by containment member 51, at ennation Obtain sufficiently sealed between opening and the opening of cylindrical portions 42 of 12f.Due to the sealing structure that unnecessary use is traditional Part, therefore reduces manufacturing cost.

The outer peripheral face 47b of the extension 47 and inner peripheral surface 51a of containment member 51 can be arranged to the most each other It is closely contacted, as long as at least containment member 51 is kept into and is formed as consistent with the outer peripheral face 47b of extension 47.Additionally, When the outer peripheral face 47b of extension 47 contacts with the overall inner peripheral surface 51a of containment member 51, it is easiest to keep containment member 51 Shape.

Additionally, extension 47 is arranged in the inner side of containment member 51.Therefore, it is not arranged in close compared to extension 47 Situation inside envelope component 51.It is easier to be intercepted by extension 47 from the outside through by the noise of containment member 51, and from horse Reach drive circuit 40 to be easier to equally be intercepted by extension 47 towards the noise of containment member 51.Therefore, reduce via close The noise leakage of envelope component 51.

(2) position of the inner peripheral surface 51a at least covering containment member 51 towards extension 47 due to extension 47 is prolonged Stretch, therefore reduce further the noise leakage via containment member 51.

(3) extension 47 forms with cylindrical portions 42.Therefore, extension 47 and cylindrical portions 42 shape simultaneously Become.Therefore, extension 47 is easily formed in cylindrical portions 42.

(4) extension 47 is formed on the overall inner peripheral surface 51a of containment member 51.Therefore, compared to extension 47 Situation in the part of the inner peripheral surface 51a being arranged on containment member 51, it is easy to reduce the noise leakage via containment member 51.

(5) extension 47 is arranged in the inner side of containment member 51.Therefore, it is arranged in sealing structure compared to extension 47 Situation outside part 51, it is easier to reduce moving inward of containment member 51.

(6) extension is not arranged in outside containment member 51.Therefore, in motor-driven compressor 10, outside housing H The shape of peripheral part and the shape of the outer peripheral portion of nappe 41 are the most uncomplicated.

Second embodiment

Motor-driven compressor according to the second embodiment will be described with reference to Fig. 3.In the following embodiments, with The parts that parts in one embodiment are identical have identical reference, and the descriptions thereof are omitted.

As it is shown on figure 3, nappe 81 is by plastic 82 and the thin-sheet metal portion of (being made up of metal material) made of aluminum Divide 83 formation.Plastic 82 is configured to the cylinder with Guan Bi end, and is configured to the body of nappe 81.Nappe 81 By plastic material by by metal part 83 molding as core.Metal part 83 is arranged in inside plastic 82.

Plastic 82 includes circular outer cylinder part 82a, outer cover portion 82b and outer connector part 82c of annular.Outward Cylindrical portions 82a extends on the axial direction of rotary shaft 19.Outer cover portion 82b and outer cylinder part 82a are continuous print, and Upwardly extend in the side vertical with the direction that outer cylinder part 82a extends.Outer connector part 82c and outer cover portion 82b are even Continue, and extend on the axial direction of rotary shaft 19.

Metal part 83 includes connector part 83c in annular inner cylinder part 83a, inner cup portion 83b and annular. Inner cylinder part 83a extends on the axial direction of rotary shaft 19.Inner cup portion 83b and inner cylinder part 83a are continuous print, and And upwardly extend in the side vertical with the direction that inner cylinder part 83a extends.Interior connector part 83c with inner cup portion 83b is Continuous print, and extend on the axial direction of rotary shaft 19.Inner cylinder part 83a is along the outer cylinder part of plastic 82 The inner peripheral surface of 82a extends.Inner cup portion 83b extends along the inner bottom surface of outer cover portion 82b of plastic 82.Interior connector Part 83c extends along the inner peripheral surface of outer connector part 82c of plastic 82.Therefore, metal part 83 is at plastic Upper extension inside the entirety of 82, and intercept the noise (electromagnetic noise) via plastic 82.

Containment member 51 is between the opening and the opening of outer cylinder part 82a of ennation 12f.Metal part 83 Inner cylinder part 83a towards diapire 12a(suction casing component 12) extend, and be arranged in the inner side of containment member 51.Cause This, in the present embodiment, inner cylinder part 83a is corresponding with the extension being arranged in inside containment member 51, and prolongs Extending portion is divided and is arranged in metal part 83.The end 831a of inner cylinder part 83a than containment member 51 towards ennation 12f's End surface 511 further highlights towards diapire 12a.It is to say, inner cylinder part 83a is towards inner cylinder part 83a The position of the overall inner peripheral surface 51a at least covering containment member 51 highlights.The outer peripheral face 832a of inner cylinder part 83a is positioned at The inner peripheral surface of the part contact ennation 12f near end 831a.

The overall inner peripheral surface 51a that inner cylinder part 83a is formed as with containment member 51 contacts.Outside inner cylinder part 83a Side face 832a contacts with the inner peripheral surface 51a of containment member 51.Containment member 51 by elastic deformation radially outwardly around inner circle The periphery of cylinder part 83a is installed.The outer peripheral face 832a of inner cylinder part 83a contacts with the inner peripheral surface 51a of containment member 51 so that Containment member 51 is arranged to the outer peripheral face 832a with inner cylinder part 83a and is closely contacted and is along inner cylinder part 83a Outer peripheral face 832a, and containment member 51 be kept into be configured to the periphery edge of accommodation space 41a consistent.

Therefore, according to the second embodiment, in addition to the advantage identical with the advantage of (1) of the first embodiment to (6), Have also obtained advantages below.

(7) it is made up of plastic material due to a part for nappe 81, therefore compared to the covering being made up of metal material Body, reduces the weight of nappe 81.

Above-mentioned embodiment can be retrofited as follows.

As shown in Figure 4, corresponding with extension cylinder element 61 can be with suction casing component 12 and nappe 41 It is separately provided.Cylinder element 61 is press-fitted in the cylindrical portions 42 of nappe 41, thus is attached to cylindrical portions 42.Cylinder Component 61 can be press-fitted into the inner side of ennation 12f, thus is attached to ennation 12f.Such as, in some cases, suck Housing member 12 or nappe 41 complex-shaped, making it difficult to make extension and suction casing component 12 or nappe 41 1 Body ground is formed.In this case, by making cylinder element 61 be individually formed with suction casing component 12 or nappe 41, energy Enough cylindrical portions 61 corresponding with extension easy to set up.

In the first embodiment, as it is shown in figure 5, extend towards nappe 41 from diapire 12a and be arranged in sealing structure In the inner peripheral surface of the adjacent open end that the toroidal extension 71 inside part 51 can be arranged in ennation 12f.Extension 71 are divided to form with ennation 12f.The end 71a of extension 71 is than the end towards cylindrical portions 42 of containment member 51 Surface, portion 512 further highlights towards the cover 43 of nappe 41.The end 71a of extension 71 extend to The position that the position towards the end surface 512 of cylindrical portions 42 of containment member 51 is identical.

In this second embodiment, as shown in Figure 6, permissible in being positioned at the inner peripheral surface of adjacent open end of ennation 12f Arranging toroidal extension 91, toroidal extension 91 extends towards nappe 81 from diapire 12a and is arranged in containment member Inside 51.Extension 91 forms with ennation 12f.End 91a on the bearing of trend of extension 91 extends to The position identical with the position of the end surface 512 facing out cylindrical portions 82a of containment member 51.Extend in extension 71 End 91a on direction can than the end surface 512 facing out cylindrical portions 82a of containment member 51 further towards Outer cover portion 82b highlights.

In each above-mentioned embodiment, extension can be formed at cylindrical portions 42 or inner cylinder part 83a Adjacent open end part at.At the adjacent open end of ennation 12f, another extension can be formed so that this prolongs Extending portion divide not with the part of the adjacent open end being formed at cylindrical portions 42 or inner cylinder part 83a at extension hand over Folded.It is to say, extension can each be formed in housing member 12 and nappe 41 or 81.

In each above-mentioned embodiment, the end 47a of the extension 47 or end 831a of inner cylinder part 83a is permissible Extend to the position identical with the position towards the end surface 511 of ennation 12f of containment member 51.

In each above-mentioned embodiment, the end 47a of the extension 47 or end 831a of inner cylinder part 83a is not required to Extend to the position identical with the position towards the end surface 511 of ennation 12f of containment member 51.

In the embodiment shown in Fig. 4, the end of cylinder element 61 need not extend to containment member 51 towards The position that the position of the end surface 511 of ennation 12f is identical.

In the embodiment shown in Fig. 5 and Fig. 6, the end 71a of the extension 71 and end 91a of extension 91 is not Need to extend to the position identical with the position towards the end surface 512 of cylindrical portions 42 or 82a of containment member 51.

In each above-mentioned embodiment, it is axial that extension 47 or inner cylinder part 83a need not in rotary shaft 19 Extend linearly on direction.Such as, a part for extension 47 or inner cylinder part 83a can be with warpage.

In each above-mentioned embodiment, extension 47 or inner cylinder part 83a can be formed at containment member 51 At a part of inner peripheral surface 51a.In the case, extension 47 or inner cylinder part 83a can be formed at and make containment member 51 are kept into and are configured in any part consistent with the circumferential edges of accommodation space 41a, the most affected by noise.

In each above-mentioned embodiment, motor drive circuit 40 can be attached to nappe 41 in accommodation space 41a Or 81.

In each above-mentioned embodiment, nappe 41 or 81 can be attached to the periphery of such as suction casing component 12 Face.

In this second embodiment, metal part 83 can be formed by the conductive of material of such as ferrum and copper etc.

In each above-mentioned embodiment, the shape of housing H and nappe 41 and 81 is not particularly limited.Such as, In the first embodiment, nappe 41 can be basically shaped as by covering that the cover 43 without cylindrical portions 42 constructs Lid, and extension 47 can be formed directly on cover 43.Such as, in the embodiment shown in Fig. 5, sucking In the case of being formed without ennation 12f in housing member 12, extension 71 can be formed directly in diapire 12a.

Although in each above-mentioned embodiment, compression section 15, electro-motor 16 and motor drive circuit 40 are sequentially It is arranged on the axial direction of rotary shaft 19, but the order arranged is not limited to this.Such as, motor drive circuit, compression section And electro-motor can be arranged sequentially on the axial direction of rotary shaft 19 according to this.

In each above-mentioned embodiment, compression section 15 can for example, piston-type or blade type.

Therefore, this example and embodiment are construed as illustrative and not restrictive, and the invention is not restricted to this The details that place is given, but can retrofit within scope of the following claims and equivalent way.

Claims

1. a motor-driven compressor, including:

The housing being made up of metal material；

It is contained in the compression section in described housing and electro-motor；

The nappe being made up of metal material, described nappe is attached to described housing；

Motor drive circuit, described motor drive circuit is contained in the accommodation space limited by described housing and described nappe In, wherein, described motor drive circuit drives described electro-motor；

Described housing includes that the diapire towards described accommodation space and the overall circumference circumference from described diapire are in towards institute Stating the annular ennation on the direction of nappe, described annular ennation has opening；

Described nappe includes cover and is in the direction towards described housing from the overall circumference circumference of described cover The cylindrical portions of upper extension, described cylindrical portions has opening；

It is positioned at described opening and the described cylindrical portions of described nappe described of the described annular ennation of described housing Flexible sealing component between opening so that the institute of annular ennation described in the first end contact of described flexible sealing component State the described opening of cylindrical portions described in the second end contact of opening and described flexible sealing component；And

Described motor-driven compressor is characterised by, described motor-driven compressor includes extension, described extension It is arranged in described housing and at least one in described nappe and towards another with described nappe of described housing The side of one upwardly extends, and wherein, described extension is arranged in the inner side of described containment member and includes outer peripheral face,

Wherein, described containment member is annular and the week being arranged in described extension by elastic deformation radially outwardly Bian Shang so that the described outer peripheral face that described containment member is arranged to described extension is closely contacted, and,

Wherein, the end of described extension than described containment member towards in described housing and described nappe described separately The end face of one further highlights towards described housing with the described another one in described nappe, and, described extension The part of its periphery surface of part overlaps with the inner peripheral surface of described housing with the described another one in described nappe.

Motor-driven compressor the most according to claim 1, wherein, described containment member includes inner peripheral surface, and described Extension extends to the position that described extension at least covers the described inner peripheral surface of described containment member.

Motor-driven compressor the most according to claim 1 and 2, wherein, described extension and described housing and described At least one in nappe forms.

Motor-driven compressor the most according to claim 1 and 2, wherein, described extension and described housing and described At least one in nappe is individually formed.

Motor-driven compressor the most according to claim 1 and 2, wherein, described containment member includes inner peripheral surface, and institute State extension to be arranged on the described inner peripheral surface of entirety of described containment member.

Motor-driven compressor the most according to claim 1 and 2, also includes:

Being contained in the rotor in described housing, described rotor constructs described electro-motor；And

Being contained in the rotary shaft in described housing, described rotary shaft rotates integratedly with described rotor,

Wherein, described compression section, described electro-motor and described motor drive circuit are sequentially arranged in described rotary shaft On axial direction.

7. a motor-driven compressor, including:

The housing being made up of metal material；

Nappe, described nappe is attached to described housing and by plastic and the metal part structure of interception electromagnetic noise Make；

Described motor-driven compressor is characterised by, described motor-driven compressor includes extension, described extension It is arranged at least one in described housing and described metal part and in described housing and described metal part The side of another one upwardly extend, wherein, described extension is arranged in the inner side of described containment member and includes outer peripheral face,

Wherein, the end of described extension is than the end face of the described annular ennation towards described housing of described containment member Further highlight towards described diapire, and, the inner circumferential of the outer peripheral face contact described annular ennation of described extension Face.